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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2012 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Util
open Tacexpr
open Mod_subst
open Genarg
open Constrarg
open Misctypes
open Globnames
open Term
open Genredexpr
open Inductiveops
open Patternops
open Pretyping
(** Substitution of tactics at module closing time *)
(** For generic arguments, we declare and store substitutions
in a table *)
let subst_quantified_hypothesis _ x = x
let subst_declared_or_quantified_hypothesis _ x = x
let subst_glob_constr_and_expr subst (c,e) =
assert (Option.is_empty e); (* e<>None only for toplevel tactics *)
(Detyping.subst_glob_constr subst c,None)
let subst_glob_constr = subst_glob_constr_and_expr (* shortening *)
let subst_binding subst (loc,b,c) =
(loc,subst_quantified_hypothesis subst b,subst_glob_constr subst c)
let subst_bindings subst = function
| NoBindings -> NoBindings
| ImplicitBindings l -> ImplicitBindings (List.map (subst_glob_constr subst) l)
| ExplicitBindings l -> ExplicitBindings (List.map (subst_binding subst) l)
let subst_glob_with_bindings subst (c,bl) =
(subst_glob_constr subst c, subst_bindings subst bl)
let subst_induction_arg subst = function
| ElimOnConstr c -> ElimOnConstr (subst_glob_with_bindings subst c)
| ElimOnAnonHyp n as x -> x
| ElimOnIdent id as x -> x
let subst_and_short_name f (c,n) =
(* assert (n=None); *)(* since tacdef are strictly globalized *)
(f c,None)
let subst_or_var f = function
| ArgVar _ as x -> x
| ArgArg x -> ArgArg (f x)
let dloc = Loc.ghost
let subst_located f (_loc,id) = (dloc,f id)
let subst_reference subst =
subst_or_var (subst_located (subst_kn subst))
(*CSC: subst_global_reference is used "only" for RefArgType, that propagates
to the syntactic non-terminals "global", used in commands such as
Print. It is also used for non-evaluable references. *)
open Pp
open Printer
let subst_global_reference subst =
let subst_global ref =
let ref',t' = subst_global subst ref in
if not (eq_constr (Universes.constr_of_global ref') t') then
msg_warning (strbrk "The reference " ++ pr_global ref ++ str " is not " ++
str " expanded to \"" ++ pr_lconstr t' ++ str "\", but to " ++
pr_global ref') ;
ref'
in
subst_or_var (subst_located subst_global)
let subst_evaluable subst =
let subst_eval_ref = subst_evaluable_reference subst in
subst_or_var (subst_and_short_name subst_eval_ref)
let subst_unfold subst (l,e) =
(l,subst_evaluable subst e)
let subst_flag subst red =
{ red with rConst = List.map (subst_evaluable subst) red.rConst }
let subst_constr_with_occurrences subst (l,c) = (l,subst_glob_constr subst c)
let subst_glob_constr_or_pattern subst (c,p) =
(subst_glob_constr subst c,subst_pattern subst p)
let subst_pattern_with_occurrences subst (l,p) =
(l,subst_glob_constr_or_pattern subst p)
let subst_redexp subst = function
| Unfold l -> Unfold (List.map (subst_unfold subst) l)
| Fold l -> Fold (List.map (subst_glob_constr subst) l)
| Cbv f -> Cbv (subst_flag subst f)
| Cbn f -> Cbn (subst_flag subst f)
| Lazy f -> Lazy (subst_flag subst f)
| Pattern l -> Pattern (List.map (subst_constr_with_occurrences subst) l)
| Simpl o -> Simpl (Option.map (subst_pattern_with_occurrences subst) o)
| CbvVm o -> CbvVm (Option.map (subst_pattern_with_occurrences subst) o)
| CbvNative o -> CbvNative (Option.map (subst_pattern_with_occurrences subst) o)
| (Red _ | Hnf | ExtraRedExpr _ as r) -> r
let subst_raw_may_eval subst = function
| ConstrEval (r,c) -> ConstrEval (subst_redexp subst r,subst_glob_constr subst c)
| ConstrContext (locid,c) -> ConstrContext (locid,subst_glob_constr subst c)
| ConstrTypeOf c -> ConstrTypeOf (subst_glob_constr subst c)
| ConstrTerm c -> ConstrTerm (subst_glob_constr subst c)
let subst_match_pattern subst = function
| Subterm (b,ido,pc) -> Subterm (b,ido,(subst_glob_constr_or_pattern subst pc))
| Term pc -> Term (subst_glob_constr_or_pattern subst pc)
let rec subst_match_goal_hyps subst = function
| Hyp (locs,mp) :: tl ->
Hyp (locs,subst_match_pattern subst mp)
:: subst_match_goal_hyps subst tl
| Def (locs,mv,mp) :: tl ->
Def (locs,subst_match_pattern subst mv, subst_match_pattern subst mp)
:: subst_match_goal_hyps subst tl
| [] -> []
let rec subst_atomic subst (t:glob_atomic_tactic_expr) = match t with
(* Basic tactics *)
| TacIntroPattern _ | TacIntrosUntil _ | TacIntroMove _ as x -> x
| TacExact c -> TacExact (subst_glob_constr subst c)
| TacApply (a,ev,cb,cl) ->
TacApply (a,ev,List.map (subst_glob_with_bindings subst) cb,cl)
| TacElim (ev,cb,cbo) ->
TacElim (ev,subst_glob_with_bindings subst cb,
Option.map (subst_glob_with_bindings subst) cbo)
| TacCase (ev,cb) -> TacCase (ev,subst_glob_with_bindings subst cb)
| TacFix (idopt,n) as x -> x
| TacMutualFix (id,n,l) ->
TacMutualFix(id,n,List.map (fun (id,n,c) -> (id,n,subst_glob_constr subst c)) l)
| TacCofix idopt as x -> x
| TacMutualCofix (id,l) ->
TacMutualCofix (id, List.map (fun (id,c) -> (id,subst_glob_constr subst c)) l)
| TacAssert (b,na,c) ->
TacAssert (Option.map (subst_tactic subst) b,na,subst_glob_constr subst c)
| TacGeneralize cl ->
TacGeneralize (List.map (on_fst (subst_constr_with_occurrences subst))cl)
| TacGeneralizeDep c -> TacGeneralizeDep (subst_glob_constr subst c)
| TacLetTac (id,c,clp,b,eqpat) ->
TacLetTac (id,subst_glob_constr subst c,clp,b,eqpat)
(* Automation tactics *)
| TacTrivial (d,lems,l) -> TacTrivial (d,List.map (subst_glob_constr subst) lems,l)
| TacAuto (d,n,lems,l) -> TacAuto (d,n,List.map (subst_glob_constr subst) lems,l)
(* Derived basic tactics *)
| TacSimpleInductionDestruct (isrec,h) as x -> x
| TacInductionDestruct (isrec,ev,(l,el,cls)) ->
let l' = List.map (fun (c,ids) -> subst_induction_arg subst c, ids) l in
let el' = Option.map (subst_glob_with_bindings subst) el in
TacInductionDestruct (isrec,ev,(l',el',cls))
| TacDoubleInduction (h1,h2) as x -> x
| TacDecompose (l,c) ->
let l = List.map (subst_or_var (subst_ind subst)) l in
TacDecompose (l,subst_glob_constr subst c)
(* Context management *)
| TacClear _ as x -> x
| TacClearBody l as x -> x
| TacMove (dep,id1,id2) as x -> x
| TacRename l as x -> x
| TacRevert _ as x -> x
(* Constructors *)
| TacSplit (ev,b,bll) -> TacSplit (ev,b,List.map (subst_bindings subst) bll)
| TacAnyConstructor (ev,t) -> TacAnyConstructor (ev,Option.map (subst_tactic subst) t)
| TacConstructor (ev,n,bl) -> TacConstructor (ev,n,subst_bindings subst bl)
(* Conversion *)
| TacReduce (r,cl) -> TacReduce (subst_redexp subst r, cl)
| TacChange (op,c,cl) ->
TacChange (Option.map (subst_glob_constr_or_pattern subst) op,
subst_glob_constr subst c, cl)
(* Equivalence relations *)
| TacSymmetry _ as x -> x
(* Equality and inversion *)
| TacRewrite (ev,l,cl,by) ->
TacRewrite (ev,
List.map (fun (b,m,c) ->
b,m,subst_glob_with_bindings subst c) l,
cl,Option.map (subst_tactic subst) by)
| TacInversion (DepInversion (k,c,l),hyp) ->
TacInversion (DepInversion (k,Option.map (subst_glob_constr subst) c,l),hyp)
| TacInversion (NonDepInversion _,_) as x -> x
| TacInversion (InversionUsing (c,cl),hyp) ->
TacInversion (InversionUsing (subst_glob_constr subst c,cl),hyp)
(* For extensions *)
| TacExtend (_loc,opn,l) ->
TacExtend (dloc,opn,List.map (subst_genarg subst) l)
| TacAlias (_,s,l) ->
let s = subst_kn subst s in
TacAlias (dloc,s,List.map (fun (id,a) -> (id,subst_genarg subst a)) l)
and subst_tactic subst (t:glob_tactic_expr) = match t with
| TacAtom (_loc,t) -> TacAtom (dloc, subst_atomic subst t)
| TacFun tacfun -> TacFun (subst_tactic_fun subst tacfun)
| TacLetIn (r,l,u) ->
let l = List.map (fun (n,b) -> (n,subst_tacarg subst b)) l in
TacLetIn (r,l,subst_tactic subst u)
| TacMatchGoal (lz,lr,lmr) ->
TacMatchGoal(lz,lr, subst_match_rule subst lmr)
| TacMatch (lz,c,lmr) ->
TacMatch (lz,subst_tactic subst c,subst_match_rule subst lmr)
| TacId _ | TacFail _ as x -> x
| TacProgress tac -> TacProgress (subst_tactic subst tac:glob_tactic_expr)
| TacShowHyps tac -> TacShowHyps (subst_tactic subst tac:glob_tactic_expr)
| TacAbstract (tac,s) -> TacAbstract (subst_tactic subst tac,s)
| TacThen (t1,tf,t2,tl) ->
TacThen (subst_tactic subst t1,Array.map (subst_tactic subst) tf,
subst_tactic subst t2,Array.map (subst_tactic subst) tl)
| TacThens (t,tl) ->
TacThens (subst_tactic subst t, List.map (subst_tactic subst) tl)
| TacDo (n,tac) -> TacDo (n,subst_tactic subst tac)
| TacTimeout (n,tac) -> TacTimeout (n,subst_tactic subst tac)
| TacTry tac -> TacTry (subst_tactic subst tac)
| TacInfo tac -> TacInfo (subst_tactic subst tac)
| TacRepeat tac -> TacRepeat (subst_tactic subst tac)
| TacOr (tac1,tac2) ->
TacOr (subst_tactic subst tac1,subst_tactic subst tac2)
| TacOnce tac ->
TacOnce (subst_tactic subst tac)
| TacExactlyOnce tac ->
TacExactlyOnce (subst_tactic subst tac)
| TacOrelse (tac1,tac2) ->
TacOrelse (subst_tactic subst tac1,subst_tactic subst tac2)
| TacFirst l -> TacFirst (List.map (subst_tactic subst) l)
| TacSolve l -> TacSolve (List.map (subst_tactic subst) l)
| TacComplete tac -> TacComplete (subst_tactic subst tac)
| TacArg (_,a) -> TacArg (dloc,subst_tacarg subst a)
and subst_tactic_fun subst (var,body) = (var,subst_tactic subst body)
and subst_tacarg subst = function
| Reference r -> Reference (subst_reference subst r)
| ConstrMayEval c -> ConstrMayEval (subst_raw_may_eval subst c)
| MetaIdArg (_loc,_,_) -> assert false
| TacCall (_loc,f,l) ->
TacCall (_loc, subst_reference subst f, List.map (subst_tacarg subst) l)
| TacExternal (_loc,com,req,la) ->
TacExternal (_loc,com,req,List.map (subst_tacarg subst) la)
| TacFreshId _ as x -> x
| Tacexp t -> Tacexp (subst_tactic subst t)
| TacGeneric arg -> TacGeneric (Genintern.generic_substitute subst arg)
| TacDynamic(the_loc,t) as x ->
(match Dyn.tag t with
| "tactic" | "value" -> x
| "constr" ->
TacDynamic(the_loc, constr_in (subst_mps subst (constr_out t)))
| s -> Errors.anomaly ~loc:dloc ~label:"Tacinterp.val_interp"
(str "Unknown dynamic: <" ++ str s ++ str ">"))
(* Reads the rules of a Match Context or a Match *)
and subst_match_rule subst = function
| (All tc)::tl ->
(All (subst_tactic subst tc))::(subst_match_rule subst tl)
| (Pat (rl,mp,tc))::tl ->
let hyps = subst_match_goal_hyps subst rl in
let pat = subst_match_pattern subst mp in
Pat (hyps,pat,subst_tactic subst tc)
::(subst_match_rule subst tl)
| [] -> []
and subst_genarg subst (x:glob_generic_argument) =
match genarg_tag x with
| IntOrVarArgType -> in_gen (glbwit wit_int_or_var) (out_gen (glbwit wit_int_or_var) x)
| IdentArgType ->
in_gen (glbwit wit_ident) (out_gen (glbwit wit_ident) x)
| VarArgType -> in_gen (glbwit wit_var) (out_gen (glbwit wit_var) x)
| GenArgType -> in_gen (glbwit wit_genarg) (subst_genarg subst (out_gen (glbwit wit_genarg) x))
| ConstrArgType ->
in_gen (glbwit wit_constr) (subst_glob_constr subst (out_gen (glbwit wit_constr) x))
| ConstrMayEvalArgType ->
in_gen (glbwit wit_constr_may_eval) (subst_raw_may_eval subst (out_gen (glbwit wit_constr_may_eval) x))
| QuantHypArgType ->
in_gen (glbwit wit_quant_hyp)
(subst_declared_or_quantified_hypothesis subst
(out_gen (glbwit wit_quant_hyp) x))
| RedExprArgType ->
in_gen (glbwit wit_red_expr) (subst_redexp subst (out_gen (glbwit wit_red_expr) x))
| OpenConstrArgType ->
in_gen (glbwit wit_open_constr)
((),subst_glob_constr subst (snd (out_gen (glbwit wit_open_constr) x)))
| ConstrWithBindingsArgType ->
in_gen (glbwit wit_constr_with_bindings)
(subst_glob_with_bindings subst (out_gen (glbwit wit_constr_with_bindings) x))
| BindingsArgType ->
in_gen (glbwit wit_bindings)
(subst_bindings subst (out_gen (glbwit wit_bindings) x))
| ListArgType _ -> app_list (subst_genarg subst) x
| OptArgType _ -> app_opt (subst_genarg subst) x
| PairArgType _ -> app_pair (subst_genarg subst) (subst_genarg subst) x
| ExtraArgType s ->
Genintern.generic_substitute subst x
(** Registering *)
let () =
Genintern.register_subst0 wit_ref subst_global_reference;
Genintern.register_subst0 wit_intro_pattern (fun _ v -> v);
Genintern.register_subst0 wit_tactic subst_tactic;
Genintern.register_subst0 wit_sort (fun _ v -> v);
Genintern.register_subst0 wit_clause_dft_concl (fun _ v -> v)
let _ = Hook.set Auto.extern_subst_tactic subst_tactic
|